Title :
Study on power plant integrated excitation and turbine control strategies
Author :
Yao Chen ; Sao, Charles ; Dawei Yao ; Jiuping Pan ; Hailian Xie
Author_Institution :
ABB China Corp. Res. Center, Beijing, China
Abstract :
This paper presents an Integrated Excitation and Turbine Control solution for steam-turbine generator system in order to improve power plant dynamic and transient stability. Firstly, the design philosophy and working principle of integrated excitation and turbine control strategy are introduced. Secondly, a simplified power system model is setup in which the IETC controller is implemented for a reference 600MW steam-turbine generator. By comparing the generator performance under different fault scenarios, the proposed solution demonstrates its operational benefits in terms of oscillation damping, first swing stability enhancement, and the reduced risk of out-of-step tripping.
Keywords :
power generation control; power system transient stability; steam turbines; IETC controller; fault scenarios; generator performance; integrated excitation; oscillation damping; out-of-step tripping; power 600 MW; power plant dynamic stability; power plant integrated excitation; power plant transient stability; power system model; steam-turbine generator system; swing stability enhancement; turbine control solution; turbine control strategies; turbine control strategy; Control systems; Generators; Power system stability; Stability analysis; Turbines; Valves; Voltage control; Integrated control; excitation; governor; power plant; stability;
Conference_Titel :
Power System Technology (POWERCON), 2014 International Conference on
Conference_Location :
Chengdu
DOI :
10.1109/POWERCON.2014.6993887
